Affiliation:
1. Harbin Institute of Technology
Abstract
It is necessary to make full use of explosive energy and reduce the loss of unnecessary energy when we study high-powered radio frequency explosive magnetic flux compression generator . Therefore, this paper proposed that indirect charging was used in radio frequency explosive magnetic flux compression generator. Based on the equivalent circuit theory, we studied the interaction of two loops in the case of indirect charging. The numerical simulation results showed that we must choose appropriate circuit parameters of charging in order to guarantee the radio frequency explosive magnetic flux compression generator to run steadily.
Publisher
Trans Tech Publications, Ltd.
Reference11 articles.
1. C. M. Fowler, W. B. G arn, R. S. gard. Journal of Physic. 1960, 31: 588.
2. Wang Yuwei; Zhang Jiande; Chen Dongqun; Cao Shengguang; Li, Da Liu, Chebo . Power Conditioning Circuit to Match Impedance of Explosive Magnetic Flux Compression Generator and Load With High Impedance. High Power Laser and Particle Beams, 2013, 25(4): 1050-1054.
3. Appelgren, P.; Bjarnholt, G.; Brenning, N.; Elfsberg, M.; Hurtig, T.; Larsson, A., Novac, B.M.; Nyholm, S.E. Small Helical Magnetic Fluxcompression Generators: Experiments and Analysis. Plasma Science, IEEE Transactions on , 2008,. 36(5):. 2673~2683.
4. А. Б. Прищепенко, М. В. Щелкачев. Диссипативные и Диффузионные Потери в Спиральном Взрывомагнитном Генераторе. Электричество. 1993, (8): 31~36.
5. L. Altgilbers, I. Merritt, M. Brown. Compact Explosive Driven Sources of Microwaves: Test Results. Proceedings of the 8th International Conference on Megagauss Magnetic Field Generation and Related Topics, Tallahassee, Florida, USA, 1988: 438~446.